Single Layer Glass Reactor FM-SGR-A101 comes with a 2 L borosilicate glass vessel, providing excellent thermal stability and chemical resistance for laboratory scale synthesis and experimental processes. It is powered by a 1.5 kW heating system, the reactor ensures precise temperature control and consistent performance. With smooth stirring capability under both vacuum and atmospheric conditions, it offers flexibility for diverse laboratory applications.
$1,765.00
| Stirring Speed | 0 to 800 rpm |
| Glass Vessel Volume | 2 L |
| Stirring Motor Power | 40W |
| Heating Power | 1.5 kW |
| Glass Vessel Temperature Range | -80°C to 250°C |
| Bath Temperature Control Range | RT to 180°C |
| Temperature Accuracy | ±1°C |
| Vacuum Degree | 0.098 MPa |
| Vessel Diameter | Ø166 mm |
| Dropping Funnel | 250 Ml |
| Power Supply | 220V / 50Hz |
| Dimensions (W×D×H) | 400 to 700 × 330 × 930 mm |
| Weight | 18 kg |
1: What makes the Single Layer Glass Reactor FM-SGR-A101 reactor suitable for vacuum-based experiments?
The Single Layer Glass Reactor FM-SGR-A101 utilizes a PTFE sealing system that maintains vacuum integrity up to 0.098 MPa, ensuring minimal leakage and stable conditions for sensitive reactions.
2: How wide is the temperature operating range of the Single Layer Glass Reactor FM-SGR-A101?
The borosilicate glass vessel is engineered to handle a broad range from -80°C to 250°C, while the stainless-steel bath offers precise heating control up to 180°C, supporting both cryogenic and high-temperature processes.
3: Can reagents be safely added during operation?
Yes, the Single Layer Glass Reactor FM-SGR-A101 is equipped with a 250 mL dropping funnel that enables controlled and continuous addition of materials without disrupting the reaction environment.
Single Layer Glass Reactor features a borosilicate glass vessel for laboratory-scale synthesis and reactions. It is equipped with heating power to deliver efficient temperature control and stable operation. The unit supports smooth stirring under vacuum or atmospheric conditions, making it versatile for different chemical processes. Its compact design and durable construction ensure reliable performance in pharmaceutical, chemical, and academic laboratories.